Chemical composition and functional properties of mrigal (Cirrhinus mrigala) egg protein concentrates and their application in pasta

详细信息    查看全文

• 作者：M. Chalamaiah (1)
  K. Balaswamy (1)
  G. Narsing Rao (1)
  P. G. Prabhakara Rao (1)
  T. Jyothirmayi (1)
  
• 关键词：Mrigal ; Cirrhinus mrigala ; Fish egg ; Protein concentrates ; Protein solubility ; SDS ; PAGE ; Sensory analysis
• 刊名：Journal of Food Science and Technology
• 出版年：2013
• 出版时间：June 2013
• 年：2013
• 卷：50
• 期：3
• 页码：514-520
• 全文大小：233KB
• 参考文献：1. Alasalvar C, Taylor KDA, Zubcov E, Shahidi F, Alexis M (2002) Differentiation of cultured and wild sea bass ( / Dicentrarchus labrax): total lipid content, fatty acid and trace mineral composition. Food Chem 79:145-50 CrossRef
  2. Al-Holy MA, Rasco BA (2006) Characterization of salmon ( / Oncorhynchus keta) and sturgeon ( / Acipenser transmontanus) caviar proteins. J Food Biochem 30:422-28 CrossRef
  3. AOAC (1965) Official Methods of Analysis of Association of Official Analytical Chemists 10^th edn. Washington, DC
  4. Balaswamy K, Jyothirmayi T, Rao DG (2007) Chemical composition and some functional properties of fish egg (roes) protein concentrate of rohu ( / Labeo rohita). J Food Sci Technol 44:293-96
  5. Balaswamy K, Prabhakara Rao PG, Rao DG, Jyothirmayi T (2010) Effects of pretreatments and salt concentration on rohu ( / Labeo rohita) roes for preparation of roe pickle. J Food Sci Technol 47:219-23 CrossRef
  6. Belinsky DL, Kuhnlein HV, Yeboah F, Penn AF, Chean HM (1996) Composition of fish consumed by the james Bay Cree. J Food Comp. Anal 9:148-62 CrossRef
  7. Beuchat LR (1977) Functional and electrophoretic characteristics of succinylated peanut flour protein. J Agric Food Chem 25:258-61 CrossRef
  8. Bledsoe GE, Bledsoe CD, Rasco BA (2003) Caviars and fish roe products. Crit Rev Food Sci Nutr 43:317-56 CrossRef
  9. Chalamaiah M, Narsing Rao G, Rao DG, Jyothirmayi T (2010) Protein hydrolysates from / mrigal ( / Cirrhinus mrigala) egg and evaluation of their functional properties. Food Chem 120:652-57 CrossRef
  10. Chau KV, Heinis JJ, Perez H (1982) Sorption isotherms and drying rates for mullet fillet and roe. J Food Sci 47:1318-322 CrossRef
  11. Dev DK, Quansel E, Hansen P (1986) Nitrogen extractability and buffer capacity of defatted linseed flour. J Sci Food Agric 37:199-05 CrossRef
  12. De Man JM (1999) Proteins. In: Deman JM (ed) Principles in Food Chemistry. Aspen Publishers Inc, Gaithersburg, pp 111-62
  13. Eun JB, Hee JC, Hearnsberger JO (1994) Chemical composition and micro flora of channel catfish ( / Ictalurus punctatus) roe and swim bladder. J Agric Food Chem 42:714-17 CrossRef
  14. Gagne N, Adambounou LT (1994) Physico-chemical and functional properties of roes from autumn spawning herring ( / Clupea herengus herengus L.). Food Res Int 27:405-08 CrossRef
  15. Intarasirisawat R, Benjakul S, Visessanguan W (2011) Chemical compositions of the roes from skipjack, tongol and bonita. Food Chem 124:1328-334 CrossRef
  16. Iwasaki M, Harada R (1985) Proximate and amino acid composition of the roe and muscle of selected marine species. J Food Sci 50:1585-587 CrossRef
  17. Joe SI, Rhee CO, Kim DY (1989) Study of processing and composition of salted and dehydrated mullet roe. Korean J Food Sci Technol 21:242-51
  18. Johnson DW (1970) Functional properties of oil seed proteins. J Americ Oil Chem Soc 47:402-07 CrossRef
  19. Klompong V, Benjal S, Kantachota D, Shahidi F (2007) Antioxidative activity and functional properties of protein hydrolysate of yellow stripe trevally ( / Selaroides leptolepis) as influenced by the degree of hydrolysis and enzyme type. Food Chem 102:1317-327 CrossRef
  20. Laemmli UK (1970) Cleavage of structural proteins during assembly of the head of bacteriophage T4. Nature 227:680-85 CrossRef
  21. Landrock AA, Procter BE (1951) A new graphical interpolation method for obtaining humidity equlibria data with special reference to its role in food packing studies. Food Technol 5:332-37
  22. Lawhon JF, Carter CM, Matil KF (1972) A comparative study of the whipping potential of an extract from several oil seed flours. Cereal Sci Today 17:240-44, 246, 294
  23. Mukhopadhyay SK, Sahoo CR, Bose AK (1981) Analysis of egg protein in five carps. Hydrobiologia 77:97-02 CrossRef
  24. Pavlova ZhP, Boyarkina LG, Mikhaleva VF, Kastornykh MS (1989) Fish protein concentrate. Pishchevaya- Promyshlennost 12:43-4
  25. Rodrigo J, Ros G, Periago MJ, Lopez C, Ortuno J (1998) Proximate and mineral composition of dried salted roes of hake ( / Merluccius merluccis) and ling ( / Molva molva L.). Food Chem 63:221-25 CrossRef
  26. Sikorski ZE, Naczk M (1981) Modification of technological properties of fish protein concentrates. Crit Rev Food Sci Nutr 14:201-30 CrossRef
  27. Taher FS, Abbassy M, El-Nockroshy AS, Shoeb ZE (1981) Counter current extraction -isoelectric precipitation of sunflower seed protein isolates. J Sci Food Agric 32:166-74 CrossRef
  28. Thawornchinsombut S, Park JW (2004) Role of pH in solubility and conformational changes of pacific whiting muscle proteins. J Food Biochem 28:135-54 CrossRef
  29. Venugopal V, Shahidi F (1995) Value-added products from underutilized fish species. Crit Rev Food Sci Nutr 35:431-53 CrossRef
  30. Wallace RA, Morgan JP (1986) Chromatographic resolution of chicken phosvitin: multiple macromolecular species in a classic vitellogenin-derived phosphoprotein. Biochem J 240:871-78
  31. Wang JC, Kinsella JE (1976) Functional properties of novel proteins: alfalfa leaf protein. J Food Sci 41:286-89 CrossRef
  32. Weichselbaum TE (1946) An accurate and rapid method for the determination of proteins in small amounts of blood serum and plasma. Americ J Clin Pathol 16 (Tech. Suppl.10):40
  33. Wiley HS, Wallace RA (1981) The structure of vitellogenin. Multiple vitellogenins in / Xenopus laevis give rise to multiple forms of the yolk proteins. J Biol Chem 256:8626-634
  34. Wirth M, Kirschbaum F, Gessner J, Kruger A, Patriche N, Billard R (2000) Chemical and biochemical composition of caviar from different sturgeon species and origins. Nahrung 44:233-37 CrossRef
  
• 作者单位：M. Chalamaiah (1)
  K. Balaswamy (1)
  G. Narsing Rao (1)
  P. G. Prabhakara Rao (1)
  T. Jyothirmayi (1)
  
  1. Central Food Technological Research Institute, (Council of Scientific and Industrial Research), Resource Centre, Habshiguda, Uppal Road, Hyderabad, 500 007, India
  
• ISSN：0975-8402

文摘

Protein concentrates were prepared from underutilized mrigal (Cirrhinus mrigala) roe to produce value added by-products for food applications. Chemical composition and physicochemical properties of protein concentrates prepared from mrigal (Cirrhinus mrigala) roes were determined. The effects of pH and salt concentration on protein solubility were investigated. The protein content of the concentrates was found to be 75, and 91%, respectively for dehydrated and defatted powders. The maximum protein solubility was observed at pH 12, while minimum protein solubility was observed at pH 5, for both dehydrated and defatted protein concentrates. Salt concentration (0.1 to 1?M?Nacl) significantly affected the solubility of protein concentrates. The mineral analysis revealed substantial amounts of iron and phosphorus. The emulsifying capacities of dehydrated and defatted protein concentrates were noted as 5.9, and 7.1?ml/g protein, respectively. SDS-PAGE analysis of fresh, dehydrated and defatted roe proteins has revealed the presence of major protein with a molecular weight (MW) of 97?kDa. Addition of defatted fish egg protein concentrate to pasta preparations had improved taste and texture. The results indicated that protein concentrates from underutilized mrigal fish egg may be useful for preparing protein rich food supplements.